Human narcolepsy-cataplexy, a sleep disorder associated with a centrally mediated hypocretin (orexin) deficiency, is tightly associated with HLA-DQB1*0602. Few studies have investigated the influence that additional HLA class II alleles have on susceptibility to this disease. In this work, 1,087 control subjects and 420 narcoleptic subjects with cataplexy, from three ethnic groups, were HLA typed, and the effects of HLA-DRB1, -DQA1, and -DQB1 were analyzed. As reported elsewhere, almost all narcoleptic subjects were positive for both HLA-DQA1*0102 and -DQB1*0602. A strong predisposing effect was observed in DQB1*0602 homozygotes, across all ethnic groups. Relative risks for narcolepsy were next calculated for heterozygous DQB1*0602/other HLA class II allelic combinations. Nine HLA class II alleles carried in trans with DQB1*0602 were found to influence disease predisposition. Significantly higher relative risks were observed for heterozygote combinations including DQB1*0301, DQA1*06, DRB1*04, DRB1*08, DRB1*11, and DRB1*12. Three alleles-DQB1*0601, DQB1*0501, and DQA1*01 (non-DQA1*0102)-were found to be protective. The genetic contribution of HLA-DQ to narcolepsy susceptibility was also estimated by use of lambda statistics. Results indicate that complex HLA-DR and -DQ interactions contribute to the genetic predisposition to human narcolepsy but that additional susceptibility loci are also most likely involved. Together with the recent hypocretin discoveries, these findings are consistent with an immunologically mediated destruction of hypocretin-containing cells in human narcolepsy-cataplexy.
BACKGROUND. Adoptive transfer of donor-derived EBV-specific cytotoxic T-lymphocytes (EBV-CTLs) can eradicate EBVassociated lymphomas (EBV-PTLD) after transplantation of hematopoietic cell (HCT) or solid organ (SOT) but is unavailable for most patients. METHODS.We developed a third-party, allogeneic, off-the-shelf bank of 330 GMP-grade EBV-CTL lines from specifically consented healthy HCT donors. We treated 46 recipients of HCT (n = 33) or SOT (n = 13) with established EBV-PTLD, who had failed rituximab therapy, with third-party EBV-CTLs. Treatment cycles consisted of 3 weekly infusions of EBV-CTLs and 3 weeks of observation. RESULTS.EBV-CTLs did not induce significant toxicities. One patient developed grade I skin graft-versus-host disease. Complete remission (CR) or sustained partial remission (PR) was achieved in 68% of HCT recipients and 54% of SOT recipients. For patients who achieved CR/PR or stable disease after cycle 1, one year overall survival was 88.9% and 81.8%, respectively. In addition, 3 of 5 recipients with POD after a first cycle who received EBV-CTLs from a different donor achieved CR or durable PR (60%) and survived longer than 1 year. Maximal responses were achieved after a median of 2 cycles. CONCLUSION.Third-party EBV-CTLs of defined HLA restriction provide safe, immediately accessible treatment for EBV-PTLD. Secondary treatment with EBV-CTLs restricted by a different HLA allele (switch therapy) can also induce remissions if initial EBV-CTLs are ineffective. These results suggest a promising potential therapy for patients with rituximab-refractory EBVassociated lymphoma after transplantation.Authorship note: SP and ED contributed equally to this work. Conflict of interest: ED and ROR had consultancy agreements with Atara Biotherapeutics. ED and ROR are inventors on technology referenced in this work (SK2013-71 [patient ID], Proprietary Cell Banks for Use in 3rd-Party EBV-Specific T Cell Therapy; and SK2018-122 [patient ID], Methods of Selecting T Cell Lines for Adoptive Cellular Therapy). SP is an inventor on technology referenced in this work (SK2013-71 and SK2018-122) and has waived rights to revenue generated from these inventions. Memorial Sloan Kettering Cancer Center (MSK), which owns the technology, has licensed this technology to Atara, and MSK has interests in Atara through this licensing arrangement.
The Adenovirus Capsid Protein Hexon Contains a Highly Conserved Human CD4+T-Cell Epitope
The immunogenicity of adenovirus vectors remains a major obstacle to their safe and efficacious use for gene therapy. In order to identify T-cell epitopes directly from adenoviruses, four viral protein sequences were screened for the well-characterized 9-mer HLA-A2 binding motif. Peripheral blood mononuclear cells (PBMC) from healthy adults were tested for responses to 17 selected viral peptides using a short-term interferon-gamma ELISPOT assay. Memory T-cell responses were identified to a single peptide derived from the major capsid protein hexon in 5 of 6 HLA-A2-positive donors. Unexpectedly, responses to this hexon peptide were also detected in 4 of 6 HLA-A2-negative donors, and responder cells were identified as CD4(+) T cells by immunomagnetic depletion experiments. A longer 15-mer peptide, H910-924, was identified as the optimal CD4(+) T-cell epitope. This hexon epitope induces strong proliferative T-cell responses that can be blocked by a monoclonal antibody against HLA-DR, and molecular HLA typing of donors suggests that the peptide response is restricted by multiple HLA-DR alleles. Additionally, quantitative analysis of responses to H910-924 and whole adenovirus reveals that the frequency of circulating CD4(+) T cells specific for this single hexon epitope (mean = 61 per 10(6) PBMC) represents up to one third of the total adenovirus-specific T-cell response. Finally, comparison of hexon sequences from over 20 different human adenovirus serotypes indicates that H910-924 is highly conserved. In most individuals, therefore, T-cell responses to this hexon epitope will be induced by all adenovirus vectors, including "gutted" vectors packaged with capsid proteins and vectors based on different serotypes.
We previously emphasized (1, 2) the usefulness of atopic allergy as a model for studying the genetics of human immune response. A particular advantage is that most allergies result from exposure to minute, immunogenically limiting doses of environmental antigens (allergens), usually <1 ptg/yr (3). Short ragweed pollen component Ra5 (5,000 tool wt) (4, 5) offers a particularly useful tool for studying specific immune response because of its relatively simple structure and low proportion in the pollen (3). In several studies (2, 6-8), immunoglobulin E (IgE)-mediated skin test response to Ra5 was significantly associated with HLA-B7 and the B7 cross-reacting group (Creg). x Further preliminary evidence suggested that the primary association might be with Dw2 (2).Analysis of the Ra5 preparations used in previous studies by crossed immunoelectrophoresis (CIE) indicated the presence of very low (but detectable) levels of impurities that might interfere with genetic analysis. Hence, further purification of Ra5 to -->99.9% purity was performed for the present studies, and highly sensitive assays for IgE and IgG antibodies (Ab) to Ra5 were developed.After studying responses to ultra-pure Ra5 in 447 Caucasians that were naturally exposed to ragweed pollen, we now find that Dw2 is almost a perfect marker for IgE and IgG responses to Ra5. The immune response association with HLA-B7 is secondary to Dw2 and presumably arises from the well-documented linkage disequilibrium between the alleles coding for these two specificities. Analysis of HLA-DR typing data in a portion of the study subjects suggests a weaker association between response to Ra5 with DR2 than with Dw2.
The immunogenicity of adenovirus (Ad) vectors is enhanced by virus-specific memory immune responses present in most individuals as a result of past exposure to these ubiquitous pathogens. We previously identified the first human T-cell epitope from the major capsid protein hexon, H910-924, and found that it is highly conserved among different Ad serotypes. Memory/effector T-cell responses to H910-924 were detected in 14 of 18 (78%) healthy adults by an interferon-g ELISPOT assay. Hexon peptide-specific CD4 Tcell lines were generated from three HLA-typed donors and analyzed using a panel of HLA homozygous B-cell lines and monoclonal antibodies to HLA class II loci. These studies reveal that the hexon epitope is restricted by HLA DP4, a class II allele present in 75% of the population. Analysis of overlapping peptides and peptides with single residue mutations identified a HLA DP4-binding motif. Additionally, antibodies to the hexon peptide were detected in all donor sera by dot blot assay and ELISA. Therefore, most individuals exhibit both memory B-and T-cell responses to this highly conserved epitope on hexon, an obligate component of all Ad vectors, including 'gutted' vectors. These data suggest that current strategies for the use of Ad gene therapy vectors will not evade memory immune responses to Ad.
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